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TIA Portal V19 🎊   New features of the TIA Portal V19 In the TIA Portal, motion control is intuitive and completely integrated, from engineering and control to drives of machines and plants. Regardless of whether the user wants to control a single axis or complex kinematics, the TIA Portal provides support with graphical interfaces, intuitive technology objects, and extensive diagnostic options like tracing. Version 19 brings even more enhancements: The new version offers extended functions for improved engineering, including software units that help with modularization. This allows different users to create their own workspaces and write complex motion applications, among other things. These modular areas make it easy to reuse applications, they’re easier to deploy, track, and trace, and creating versions is also easier. The introduction of the new engineering feature Named Values enables the creation of readable and easy-to-maintain code as well as clear debugging, and this means greater programming convenience for users. The enhancements in TIA Portal V19 also support the use of SIMATIC CPUs for high-end applications in important segments of mechanical engineering. They also enable the simulation of all types of hardware and software controllers with S7-PLCSIM (Adv.). https://lnkd.in/gHK4KY6m https://lnkd.in/gcspBt3H Siemens , Siemens Digital Industries Software #tiaportal

🚀 Exciting News in Industrial Automation! 🤖 I'm thrilled to share with you a game-changing document that explores the cutting-edge world of industrial control systems: "Next-Level Automation: Building Arduino PLCs." In this comprehensive guide, we delve into the innovative use of Arduino programmable logic controllers (PLCs) to revolutionize automation processes. Whether you're a seasoned professional or an enthusiastic newcomer, this document offers valuable insights and practical tips for constructing Arduino-based PLCs from scratch. Discover step-by-step #instructions, detailed explanations, and practical insights on selecting components, programming, and integrating Arduino PLCs into existing infrastructures. What makes this document truly special is its focus on the transformative impact of Arduino technology on industrial efficiency. By leveraging open-source #hardware and software, organizations can achieve cost-effective solutions tailored to their specific needs. From optimizing manufacturing processes to streamlining logistics and enhancing quality control, the possibilities are endless with Arduino PLCs. #IndustrialAutomation #Arduino #PLCs #Innovation #FutureOfWork #Engineering #Automation #Technology #LinkedInPost #embeddedsystems #engineering

🚀 **What’s the difference between Discrete I/O vs. Analog I/O in Industrial Automation?** 🚀 In the world of industrial automation, choosing the right type of I/O (Input/Output) is crucial for optimizing your processes. But what’s the difference between Discrete I/O and Analog I/O, and why would you use one over the other? Let's break it down: 🔹 **Discrete I/O**: Also known as digital I/O, these signals are either on or off, like a simple switch. Think of it as binary – 1s and 0s. Discrete I/O is ideal for applications where you need to detect or control the presence or absence of an object, such as turning a motor on or off, or signaling when a part is in place. 🔹 **Analog I/O**: These signals vary continuously and represent a range of values. For example, an analog signal could measure temperature, pressure, or flow rates, providing a detailed, precise reading of physical conditions. Analog I/O is essential when you need accurate and variable control over processes, such as adjusting the speed of a conveyor belt or monitoring fluid levels. **Why Choose One Over the Other?** ➡️ **Use Discrete I/O** for straightforward, on/off applications where binary decisions are sufficient. It's simpler and often more cost-effective. ➡️ **Use Analog I/O** when precise measurement and control are critical. It provides the nuanced data needed for fine-tuned operations. Choosing the right I/O type can significantly enhance your system's efficiency and reliability. Understanding these fundamentals helps in designing smarter, more responsive automation systems. If you need help deciding what types of automation components or controls to use for an application, please give me a call at (440) 346-1939 or reach out via [email protected] If you’d like to learn more about Discrete vs Analog I/O, or how to confidently program PLC’s, checkout the website below! myPLCtraining.com Stephen Gates https://lnkd.in/gqVdygAx #IndustrialAutomation #Manufacturing #Engineering #ProcessControls #PLC #Automation #analog

What Is PLC Splitter? 👇 PLC splitter, also called Planar Waveguide Circuit splitter, is a device used to divide one or two light beams into multiple light beams uniformly or combine multiple light beams to one or two light beams. It is a passive optical device with many input and output terminals, especially applicable to PON (EPON, GPON, BPON, FTTX, etc.) to connect the MDF (main distribution frame) and the terminal equipment and to branch the optical signal. PLC Splitter Manufacturing Technology 👇 PLC splitter is based on Semiconductor technology. As its name shows, PLC splitters are manufactured by planar waveguide circuit technology. PLC splitter design consists of one optical PLC chip and several optical arrays depending on the output ratio. The optical arrays are coupled on both ends of the PLC splitter chip. PLC chip is one key component of a fiber PLC splitter. It is available in 1xN (N=2, 4, 8, 16, 32, 64) and 2xN (N=2, 4, 8, 16, 32, 64) splitting ratios. The figure below shows the typical design of a 1x8 PLC splitter chip. To be continued......

Mastering the Art of Control: Relay Modules Demystified" Hello, engineers and innovators! Today, we dive deep into the realm of control systems, and at the heart of it all, we find the unsung hero - the relay module. Join me in unraveling the mysteries and mastering the art of control with relay modules. Introduction: The Symphony of Control Systems Imagine orchestrating a symphony of electronic devices. That's precisely what relay modules enable you to do. Let's explore how these ingenious devices facilitate control in various applications, from simple circuits to complex automation systems. Working Principle: Behind the Scenes of Relay Module Mastery Understanding the working principle of relay modules is like peeking behind the curtain of a magic show. I'll break down the intricate dance of signals and switches that occurs within relay modules, demystifying their seemingly magical control capabilities. Control Logic: Crafting Precision in Every Pulse Crafting precision in control systems requires understanding control logic. Explore the different control logic types used in relay modules and how they contribute to the seamless operation of your projects. Advanced Features: Elevating Your Control Game Beyond the basics, relay modules boast advanced features that can elevate your control game. From programmable logic controllers (PLCs) to smart relay modules, discover how these advancements open new possibilities for control systems. Case Studies: Realizing Potential in Control Scenarios Concrete examples often speak louder than theories. Delve into real-world case studies where relay modules have been pivotal in achieving control objectives, offering insights into their versatile applications. Future Trends: What's on the Horizon for Relay Modules? As technology advances, so do relay modules. Explore the future trends and innovations that promise to reshape the landscape of control systems, giving you a glimpse into what lies ahead. Conclusion: Empowering Your Control Odyssey As we conclude our exploration of relay modules, share your thoughts and questions in the comments. If you're ready to master the art of control, hit that like button, share your control triumphs, and stay tuned for more in-depth explorations! #pcb #pcba #pcbassembly #pcbmanufacturing #pcbmanufacturer Stay in control, stay ingenious! ⚡🎮

#Programmable #Logic #Controllers #PLCs are #electronic #devices that allow #machines to be programmed and reprogrammed to #control automated #processes . They are reliable and user-friendly, making them the ideal choice for industrial applications. The major components of PLCs include a processor, memory, input/output (I/O) interfaces, programming port, and power supply:- * The #processor is the brain of the PLC, where it stores, calculates, and executes the #logic instructions written in the PLC's language. ** The #memory is used to store #data and #instructions , as well as to record any errors or changes that occur during operation. *** The #I/O #interfaces allow the PLC to communicate with #sensors and actuators, which are connected to the PLC through #inputs and #outputs . **** The #programming #port allows users to upload, download, and modify PLC programs, as well as monitor the PLC’s status. ***** The #power #supply provides the energy needed to run the PLC and its components. As well as there are some components which are also a major components like PLC #Chassis , PLC #rack , #Relays , #Field termination assembly. By understanding the major components of PLCs, you can better manage and #control your automated processes. #instrumentation #controlsystemes #process #industrial #automation #plc

New Year, new opportunities. Seeing more enquiries for PLC Programming assistance from machine builders, automation and controls companies. Many of whom are struggling with resources to find qualified and reliable programmers themselves. The shortage of engineers looks set to continue. Also, increasingly looking at PLC upgrades and migration on existing systems which we're happy to help with. However, it's still amazing (and deeply worrying in equal measures) to see just how many large manufacturers are totally reliant on production line and machinery automation, often with no PLC backups or copies of the software in sight! Some either don't care or just don't seem to realise the consequences of this should problems occur! There's plenty of great Engineering Managers, Supervisors and Maintenance Team Leaders who do get it though, and are proactive in actually addressing the issue. Sadly though there's still far too many running things on a #wingandaprayer! Incidentally, if you're running any Allen-Bradley PLCs then there's a nifty 'Lifecycle Status' check you can do to see if you have any obsolete hardware. If so, it's worth considering upgrading as replacement parts can become expensive and far harder to source. Scrolling through eBay or Facebook Marketplace in sheer desperation for parts isn't fun, or any way to run a production line! https://lnkd.in/ezhcAKU

What is PLC: programmable logic controller There are a few key features that set PLCs apart from industrial PCs, microcontrollers, and other industrial control solutions: • I/O – The PLC’s CPU stores and processes program data, but input and output modules connect the PLC to the rest of the machine; these I/O modules are what provide information to the CPU and trigger specific results. I/O can be either analog or digital; input devices might include sensors, switches, and meters, while outputs might include relays, lights, valves, and drives. Users can mix and match a PLC’s I/O in order to get the right configuration for their application. • Communications – In addition to input and output devices, a PLC might also need to connect with other kinds of systems; for example, users might want to export application data recorded by the PLC to a supervisory control and data acquisition (SCADA) system, which monitors multiple connected devices. PLCs offer a range of ports and communication protocols to ensure that the PLC can communicate with these other systems. • HMI – In order to interact with the PLC in real time, users need an HMI, or Human Machine Interface. These operator interfaces can be simple displays, with a text-readout and keypad, or large touchscreen panels more similar to consumer electronics, but either way, they enable users to review and input information to the PLC in real time. Find attached Illustration.

💡 FlexiLogics Eco and Standard Series: PLC Models - Designed for Cost-Effective Machine Automation and Remote Data Monitoring. 💡 Renu Electronics PLCs are engineered to streamline your industrial processes and enhance efficiency. These PLCs are perfect for a wide array of industries including #watertreatment, #warpknitting, #textile machines, #food packaging, and beyond. Plus, they come with a FREE Flexisoft Programming Environment, making customization and implementation a breeze. 🌐 Elevate your #IIoT applications too with our #PLCs and experience simplified #machine automation & #remote data monitoring. 🌟 Key Features of FlexiLogics Eco and Standard Series: Outstanding expandability for versatile applications Sleek design with high-performance capabilities Supports IEC61131-3 logic programming environment 4 pairs of quadrature and high-speed counters up to 200 KHz 4 Pairs of High-speed 200 KHz PTO & PWM outputs Support for up to 256 IO points Motion Block Support Built-in Web Server for seamless connectivity Learn more on https://lnkd.in/g7sXKGwm #IndustrialAutomation #MachineAutomation #RemoteMonitoring #FlexiLogics #RenuElectronics #elevators #factoryautomation #manufacturing #manufacturingtoday #india #systemintegrators #electronics #industrialelectronics Note: Features may vary from model to model. For details connect with [email protected]

▶ HMI Simulation with PLCSim PLCSim is a powerful tool included in TIA Portal. It can be used to simulate any type of PLC program. We previously studied how to perform simple simulations, but there are still other features to cover. Mainly the event tables. This feature allows you to simulate hardware events in your program to check its behavior when they occur. For example, you can test the execution of the Organization Blocks associated with the event. Another feature present in TIA is the ability to simulate HMI and interface it with PLCSim. In addition to simulating HMI programs, you can connect the simulated HMI to PLCSim, allowing you to simulate your project as if it was an actual system. In this tutorial, you will learn how to use the event tables and test the execution of their associated OBs. You will also learn how to simulate your PLC-HMI interactions using PLCSim. #plcprogramming #plctraining #solisplc #manufacturingautomation #manufacturing #plcs #industrialautomation #industrialengineering #processcontrol #tiaportal #Siemens